Fast Faraday cup to measure neutralized drift compression in intense ion charge bunches

A. B. Sefkow; R. C. Davidson; P. C. Efthimion; E. P. Gilson; S. S. Yu; P. K. Roy; F. M. Bieniosek; J. E. Coleman; S. Eylon; W. G. Greenway; E. Henestroza; J. W. Kwan; D. L. Vanecek; W. L. Waldron; D. R. Welch

doi:10.1103/PhysRevSTAB.9.052801

Fast Faraday cup to measure neutralized drift compression in intense ion charge bunches

A. B. Sefkow, R. C. Davidson, P. C. Efthimion, E. P. Gilson, S. S. Yu, P. K. Roy, F. M. Bieniosek, J. E. Coleman, S. Eylon, W. G. Greenway, E. Henestroza, J. W. Kwan, D. L. Vanecek, W. L. Waldron, D. R. Welch

Research output: Contribution to journal › Article › peer-review

34 Scopus citations

Abstract

Heavy ion drivers for heavy ion fusion and high energy density physics applications use space-charge-dominated ion beams which must undergo longitudinal bunch compression in order to meet the requisite beam intensities desired at the target. The Neutralized Drift Compression Experiment-1A (NDCX-1A) at Lawrence Berkeley National Laboratory is used to determine the effective limits of neutralized drift compression, which occurs due to an imposed longitudinal velocity tilt on the drifting beam and subsequent neutralization of the beam's space charge with background plasma. The accurate and temporally resolved measurement of the ion beam's current and pulse length, which has been longitudinally compressed to a few nanoseconds duration at its focal plane, is a critical diagnostic. This paper describes the design and experimental results for a fast and accurate ion beam probe, which reliably measures the absolute beam current in the presence of high density plasma at the focal plane as a function of time. A particle-in-cell code has been used to model the propagation of the intense ion beam and to design the diagnostic probe.

Original language	English (US)
Article number	052801
Journal	Physical Review Special Topics - Accelerators and Beams
Volume	9
Issue number	5
DOIs	https://doi.org/10.1103/PhysRevSTAB.9.052801
State	Published - 2006

All Science Journal Classification (ASJC) codes

Nuclear and High Energy Physics
Physics and Astronomy (miscellaneous)
Surfaces and Interfaces

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10.1103/PhysRevSTAB.9.052801

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Sefkow, A. B., Davidson, R. C., Efthimion, P. C., Gilson, E. P., Yu, S. S., Roy, P. K., Bieniosek, F. M., Coleman, J. E., Eylon, S., Greenway, W. G., Henestroza, E., Kwan, J. W., Vanecek, D. L., Waldron, W. L., & Welch, D. R. (2006). Fast Faraday cup to measure neutralized drift compression in intense ion charge bunches. Physical Review Special Topics - Accelerators and Beams, 9(5), Article 052801. https://doi.org/10.1103/PhysRevSTAB.9.052801

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title = "Fast Faraday cup to measure neutralized drift compression in intense ion charge bunches",

abstract = "Heavy ion drivers for heavy ion fusion and high energy density physics applications use space-charge-dominated ion beams which must undergo longitudinal bunch compression in order to meet the requisite beam intensities desired at the target. The Neutralized Drift Compression Experiment-1A (NDCX-1A) at Lawrence Berkeley National Laboratory is used to determine the effective limits of neutralized drift compression, which occurs due to an imposed longitudinal velocity tilt on the drifting beam and subsequent neutralization of the beam's space charge with background plasma. The accurate and temporally resolved measurement of the ion beam's current and pulse length, which has been longitudinally compressed to a few nanoseconds duration at its focal plane, is a critical diagnostic. This paper describes the design and experimental results for a fast and accurate ion beam probe, which reliably measures the absolute beam current in the presence of high density plasma at the focal plane as a function of time. A particle-in-cell code has been used to model the propagation of the intense ion beam and to design the diagnostic probe.",

author = "Sefkow, \{A. B.\} and Davidson, \{R. C.\} and Efthimion, \{P. C.\} and Gilson, \{E. P.\} and Yu, \{S. S.\} and Roy, \{P. K.\} and Bieniosek, \{F. M.\} and Coleman, \{J. E.\} and S. Eylon and Greenway, \{W. G.\} and E. Henestroza and Kwan, \{J. W.\} and Vanecek, \{D. L.\} and Waldron, \{W. L.\} and Welch, \{D. R.\}",

year = "2006",

doi = "10.1103/PhysRevSTAB.9.052801",

language = "English (US)",

volume = "9",

journal = "Physical Review Special Topics - Accelerators and Beams",

issn = "1098-4402",

publisher = "American Physical Society",

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Sefkow, AB, Davidson, RC, Efthimion, PC , Gilson, EP, Yu, SS, Roy, PK, Bieniosek, FM, Coleman, JE, Eylon, S, Greenway, WG, Henestroza, E, Kwan, JW, Vanecek, DL, Waldron, WL & Welch, DR 2006, 'Fast Faraday cup to measure neutralized drift compression in intense ion charge bunches', Physical Review Special Topics - Accelerators and Beams, vol. 9, no. 5, 052801. https://doi.org/10.1103/PhysRevSTAB.9.052801

TY - JOUR

T1 - Fast Faraday cup to measure neutralized drift compression in intense ion charge bunches

AU - Sefkow, A. B.

AU - Davidson, R. C.

AU - Efthimion, P. C.

AU - Gilson, E. P.

AU - Yu, S. S.

AU - Roy, P. K.

AU - Bieniosek, F. M.

AU - Coleman, J. E.

AU - Eylon, S.

AU - Greenway, W. G.

AU - Henestroza, E.

AU - Kwan, J. W.

AU - Vanecek, D. L.

AU - Waldron, W. L.

AU - Welch, D. R.

PY - 2006

Y1 - 2006

N2 - Heavy ion drivers for heavy ion fusion and high energy density physics applications use space-charge-dominated ion beams which must undergo longitudinal bunch compression in order to meet the requisite beam intensities desired at the target. The Neutralized Drift Compression Experiment-1A (NDCX-1A) at Lawrence Berkeley National Laboratory is used to determine the effective limits of neutralized drift compression, which occurs due to an imposed longitudinal velocity tilt on the drifting beam and subsequent neutralization of the beam's space charge with background plasma. The accurate and temporally resolved measurement of the ion beam's current and pulse length, which has been longitudinally compressed to a few nanoseconds duration at its focal plane, is a critical diagnostic. This paper describes the design and experimental results for a fast and accurate ion beam probe, which reliably measures the absolute beam current in the presence of high density plasma at the focal plane as a function of time. A particle-in-cell code has been used to model the propagation of the intense ion beam and to design the diagnostic probe.

AB - Heavy ion drivers for heavy ion fusion and high energy density physics applications use space-charge-dominated ion beams which must undergo longitudinal bunch compression in order to meet the requisite beam intensities desired at the target. The Neutralized Drift Compression Experiment-1A (NDCX-1A) at Lawrence Berkeley National Laboratory is used to determine the effective limits of neutralized drift compression, which occurs due to an imposed longitudinal velocity tilt on the drifting beam and subsequent neutralization of the beam's space charge with background plasma. The accurate and temporally resolved measurement of the ion beam's current and pulse length, which has been longitudinally compressed to a few nanoseconds duration at its focal plane, is a critical diagnostic. This paper describes the design and experimental results for a fast and accurate ion beam probe, which reliably measures the absolute beam current in the presence of high density plasma at the focal plane as a function of time. A particle-in-cell code has been used to model the propagation of the intense ion beam and to design the diagnostic probe.

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M1 - 052801

ER -

Fast Faraday cup to measure neutralized drift compression in intense ion charge bunches

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